"Yes and no. Unfortunately, it's not a realistic goal in most HTs, EQ or no EQ. Even when the squiggly line or bars show ruler-flat, that is no indication that the room/system is
actually flat. And, as I mentioned, most listeners prefer some extra low end. At least, that's what I have found. And I'm not talking about 20 dB of boost or something crazy. I'm just talking about a little more than "flat."
Of course, there is a huge part of this that is subjective. Toole has shown that, contrary to myth, most people do actually prefer "flat." However, that's all based on data from controlled listening tests in controlled spaces. When people actually get the loudspeakers into their relatively imperfect rooms, I feel their preferences are wont to change. But that's just my opinion, based on my own experiences."
Absolutely flat is only possible in an anechoic chamber with speakers that are capable of producing that. The goal is to have an averaged flat response with a minimum of peaks/dips and a tolerance of +/- xdB. As I said, an equalizer is made to equalize the system/room interface but many use it as a way to add/subtract frequencies to tailor the sound to their preferences. There's nothing "wrong" with this, but it's not what equalizers are really made for. If you have access to an RTA, you'll be surprised by how many recordings peak at a flat average response when the signal goes from the source to the RTA. With additional processing (like aural exciters, compression and EQ on each track), it may sound louder/dynamic or have some other characteristics.
"Flat is the reference, agreed. What I'm saying is it is often not the preference. And equalizing is a valuable tool below a certain frequency, typically the subwoofer range. But equalizing system/room interface problems at mid and high frequencies is simply not possible. I realize that's probably not what you're getting at, but I wanted to clarify for others."
If EQ at only low frequencies was best, they wouldn't make 1/3 and 1/6 octave graphic or parametric equalizers that go to the top end of the spectrum. EQ in the mid range is incredibly important and a small amount there is most audible because human hearing is most sensitive between about 300Hz and 6KHz at low SPL and the differences in sensitivity change as the SPL changes. This is also subject to the listener, but on average, the charts in the link are well established and do a great job in explaining why most people will set a graphic equalizer to a Happy Face.
Equal Loudness curves:
http://hyperphysics.phy-astr.gsu.edu/hbase/sound/eqloud.html
Acoustical treatment is something most people don't want to do and aren't usually willing to get into. The majority of equalizers purchased by consumers are used in an attempt to tame room reflections in untreated rooms. This only works to a certain point because a room with multiple reflections is hard to equalize and get a good result. If the first reflections are limited before equalization, less boost/cut is needed. Another problem with drastic boost/cut is that phase shift increases. In a halfway well treated room, a little EQ goes a long way.
"I think we're talking about the same thing. An equalizer is certainly useful if there is some anomaly present...and present throughout the room, or at the very least over the entire listening area. Another criterion would be that the problem is actually
audible. Many things that appear as "problems" on a squiggly line or bar graph are not really anything to be concerned about due to the bandwidth of the ear. I've experienced many "analysis paralysis" situations where an "expert" was obsessed about a "flat" line or bar graph and never stopped to actually listen to the system."
There's not a single room that doesn't have some kind of acoustical problem, if it wasn't specifically designed not to. Even in a treated room, equalization is needed to
achieve the desired response. I have heard far more systems that sounded bad because of the way they were EQ'd than because of the equipment and the paralysis you mentioned is one reason they couldn't bring themselves to hit the bypass button. Ultimately, listening to it is the final arbiter but starting at flat and using the tone controls is a really easy way to get excellent sound because the people who design receivers also know where human hearing needs a bit of help, so they make the controls work where we need them.
"But I digress... In general, trying to correct an entire room/system interface with EQ is fallacious. An exercise in futility, IMH(and professional)O."
It can be like Con Quixote, that's for sure. Better to have a smooth response, maybe with a little downward tilt from bass to treble but the best way is to analyze the ambient noise and work around that in order to allow the sound to be as ever as possible without masking by the background noise.
"Oh, and as for tone controls, if the system is set up well, the user need never touch anything except the volume control.
"
I agree completely.
"First, good consultants often have (
should have, IMO) somewhat regular (every 2-5 years at least; annually if they're over 40, or regularly exposed to high sound levels) hearing tests (audiograms) conducted by an audiologist. If they know what their hearing response is, they know what they're hearing."
Exactly. Personally, I think anyone who has audio as a hobby/obsession should be tested regularly, too. Maybe it would explain their/our incessant quest for better sound.
"Second, if the sound levels are so high during system setup that ear fatigue is setting in, the sound levels are probably
too high. There is no reason to have to experience overall, average sound levels over 75 dBA in order to properly set up an HT system. Average sound levels at and below 75 dBA should not cause ear fatigue problems (but all people are different). Additionally, ear fatigue can be avoided by taking frequent breaks - I would suggest 10-15 minutes ever 60-90 minutes, or thereabouts."
There's no reason for the person doing the initial system setup to hear the test tones and pink noise. I wear ear plugs during this phase and take them out when I want to find out if it sounds good.
"Thirdly, if a client or colleague insists on working with average sound levels above 75-80 dBA, it's time to get out the earplugs. And I'm not talking about the $0.25 yellow foam jobs. Custom earplugs with a linear response are available and are a worthwhile investment for audio professionals. Many models, such as those from
Etymotic can be provided with different inserts for different levels of protection. The 9 or 15 dB inserts can often provide enough reduction when the overzealous client/colleague wants it cranked up, and yet hearing remains linear (more accurately, all frequencies are attenuated evenly instead of the HF muffling that comes with foam plugs) and informed decisions can still be made.
Finally, I would honestly have to question a consultant's relative worth if they've been hired to set a system up and yet have to rely completely upon squiggly lines or bar graphs because their hearing is shot. A responsible consultant with known hearing problems (which is redundant, btw; a person cannot not know they have a hearing problem) should delegate system setup to someone on the staff with better "tools.""
Cheap plugs are great for removing the upper frequencies in loud situations but not for listening. The Stymotic are great for people, like live sound, studio people and anyone else who actually needs to hear the quality of sound but the level can't/won't be reduced. What's the saying? I think it's "Specs are for techs", or something like that. They make it possible to get a lot closer in a short time than trying to EQ by ear and the fine tuning can be done after that point. Fatigue during the rough EQ stage happens really fast, especially if there's a specific problem. I can't think of many sound guys who don't have a major threshold shift or major damage after years of high SPL exposure and when I have talked to them, many just claim that they "just use their ears", which is often the reason I ask in the first place- the sound it so bad.
"My reference to inferiority was with regards to ears (the best analyzer) versus electronic analyzers
in general. They are
all inferior to ears. (But we do need both, of course.)."
I think a lot of problems in equalization by ear come from people not knowing what information is in each band.
Holy Hand Grenades! What a long post!
